def password_empty_test(self):
"""Check if quality of an empty password is reported correctly."""
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = ""
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score,
1) # empty password is fine with emptyok policy
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.EMPTY.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
# empty password should override password-too-short messages
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.minlen = 10
request.password = ""
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 1)
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.EMPTY.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
def password_empty_ok_test(self):
"""Check if the empty_ok flag works correctly."""
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.emptyok = True
request.password = ""
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 1)
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.EMPTY.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
# empty_ok with password length
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.emptyok = True
request.policy.minlen = 10
request.password = ""
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 1)
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.EMPTY.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
# non-empty passwords that are too short should still get a score of 0 & the "too short" message
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.emptyok = True
request.policy.minlen = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 0)
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.TOO_SHORT.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
# also check a long-enough password, just in case
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.emptyok = True
request.policy.minlen = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 1)
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.WEAK.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
def test_password_empty_ok(self):
"""Check if the empty_ok flag works correctly."""
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.allow_empty = True
request.password = ""
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 1
assert check.result.status_text == _(
constants.SecretStatus.EMPTY.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
# empty_ok with password length
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.allow_empty = True
request.policy.min_length = 10
request.password = ""
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 1
assert check.result.status_text == _(
constants.SecretStatus.EMPTY.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
# non-empty passwords that are too short should still get a score of 0 & the "too short" message
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.allow_empty = True
request.policy.min_length = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 0
assert check.result.status_text == _(
constants.SecretStatus.TOO_SHORT.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
# also check a long-enough password, just in case
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.allow_empty = True
request.policy.min_length = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 1
assert check.result.status_text == _(constants.SecretStatus.WEAK.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
def __init__(self, data, default_passphrase=""):
super().__init__(data)
self._passphrase_entry = self.builder.get_object("passphrase_entry")
self._confirm_entry = self.builder.get_object("confirm_pw_entry")
self._save_button = self.builder.get_object("passphrase_save_button")
self._strength_bar = self.builder.get_object("strength_bar")
self._strength_label = self.builder.get_object("strength_label")
self._passphrase_warning_image = self.builder.get_object("passphrase_warning_image")
self._passphrase_warning_label = self.builder.get_object("passphrase_warning_label")
# Set the offset values for the strength bar colors
self._strength_bar.add_offset_value("low", 2)
self._strength_bar.add_offset_value("medium", 3)
self._strength_bar.add_offset_value("high", 4)
# Setup the password checker for passphrase checking
self._checker = input_checking.PasswordChecker(
initial_password_content=self._passphrase_entry.get_text(),
initial_password_confirmation_content=self._confirm_entry.get_text(),
policy_name=PASSWORD_POLICY_LUKS
)
# configure the checker for passphrase checking
self._checker.secret_type = constants.SecretType.PASSPHRASE
# connect UI updates to check results
self._checker.checks_done.connect(self._set_status)
self.passphrase = default_passphrase
self._passphrase_good_enough = False
# check that the content of the passphrase field & the conformation field are the same
self._confirm_check = input_checking.PasswordConfirmationCheck()
# check passphrase validity, quality and strength
self._validity_check = input_checking.PasswordValidityCheck()
# connect UI updates to validity check results
self._validity_check.result.password_score_changed.connect(self._set_password_strength)
self._validity_check.result.status_text_changed.connect(self._set_password_status_text)
# check if the passphrase contains non-ascii characters
self._ascii_check = input_checking.PasswordASCIICheck()
# check if the passphrase is empty
self._empty_check = input_checking.PasswordEmptyCheck()
# register the individual checks with the checker in proper order
# 1) are both entered passphrases the same ?
# 2) is the passphrase valid according to the current password checking policy ?
# 3) is the passphrase free of non-ASCII characters ?
self._checker.add_check(self._confirm_check)
self._checker.add_check(self._validity_check)
self._checker.add_check(self._ascii_check)
self._checker.add_check(self._empty_check)
# set the visibility of the password entries
# - without this the password visibility toggle icon will
# not be shown
set_password_visibility(self._passphrase_entry, False)
set_password_visibility(self._confirm_entry, False)
def _validate_password(self, password, confirm):
"""Validate and process user password."""
if password != confirm:
self._report(
_(constants.SECRET_CONFIRM_ERROR_TUI[self._secret_type]))
return None
# If an empty password was provided, unset the value
if not password:
return ""
# prepare a password validation request
password_check_request = input_checking.PasswordCheckRequest()
password_check_request.password = password
password_check_request.password_confirmation = ""
password_check_request.policy = self._policy
# validate the password
password_check = input_checking.PasswordValidityCheck()
password_check.run(password_check_request)
# if the score is equal to 0 and we have an error message set
if not password_check.result.password_score and password_check.result.error_message:
self._report(password_check.result.error_message)
return None
if password_check.result.password_quality < self._policy.min_quality:
if self._policy.is_strict:
done_msg = ""
else:
done_msg = _("\nWould you like to use it anyway?")
if password_check.result.error_message:
weak_prefix = _(
constants.SECRET_WEAK_WITH_ERROR[self._secret_type])
error = "{} {} {}".format(weak_prefix,
password_check.result.error_message,
done_msg)
else:
weak_prefix = _(constants.SECRET_WEAK[self._secret_type])
error = "{} {}".format(weak_prefix, done_msg)
if not self._policy.is_strict:
question_window = YesNoDialog(error)
ScreenHandler.push_screen_modal(question_window)
if not question_window.answer:
return None
else:
self._report(error)
return None
if any(char not in constants.PW_ASCII_CHARS for char in password):
self._report(_(constants.SECRET_ASCII[self._secret_type]))
return self._process_password(password)
def password_length_test(self):
"""Check if minimal password length is checked properly."""
# first check if the default minimal password length is checked correctly
# (should be 6 characters at the moment)
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 0)
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.TOO_SHORT.value))
# weak but long enough
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 1)
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.WEAK.value))
# check if setting password length works correctly
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.minlen = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 0)
self.assertEqual(check.result.status_text,
_(constants.PasswordStatus.TOO_SHORT.value))
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.minlen = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertGreater(check.result.password_score, 0)
self.assertNotEqual(check.result.status_text,
_(constants.PasswordStatus.TOO_SHORT.value))
def test_password_length(self):
"""Check if minimal password length is checked properly."""
# first check if the default minimal password length is checked correctly
# (should be 6 characters at the moment)
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 0
assert check.result.status_text == _(
constants.SecretStatus.TOO_SHORT.value)
# weak but long enough
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 1
assert check.result.status_text == _(constants.SecretStatus.WEAK.value)
# check if setting password length works correctly
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.min_length = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 0
assert check.result.status_text == _(
constants.SecretStatus.TOO_SHORT.value)
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.min_length = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score > 0
assert check.result.status_text != _(
constants.SecretStatus.TOO_SHORT.value)
def test_password_empty(self):
"""Check if quality of an empty password is reported correctly."""
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = ""
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 1 # empty password is fine with emptyok policy
assert check.result.status_text == _(
constants.SecretStatus.EMPTY.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
# empty password should override password-too-short messages
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.min_length = 10
request.password = ""
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 1
assert check.result.status_text == _(
constants.SecretStatus.EMPTY.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
def initialize(self):
NormalSpoke.initialize(self)
self.initialize_start()
# get object references from the builders
self._password_entry = self.builder.get_object("password_entry")
self._password_confirmation_entry = self.builder.get_object("password_confirmation_entry")
self._password_bar = self.builder.get_object("password_bar")
self._password_label = self.builder.get_object("password_label")
self._enable_root_radio = self.builder.get_object("enable_root_radio")
self._disable_root_radio = self.builder.get_object("disable_root_radio")
self._root_password_ssh_login_override = self.builder.get_object("root_password_ssh_login_override")
self._revealer = self.builder.get_object("password_revealer")
# Install the password checks:
# - Has a password been specified?
# - If a password has been specified and there is data in the confirm box, do they match?
# - How strong is the password?
# - Does the password contain non-ASCII characters?
# Setup the password checker for password checking
self._checker = input_checking.PasswordChecker(
initial_password_content=self.password,
initial_password_confirmation_content=self.password_confirmation,
policy_name=PASSWORD_POLICY_ROOT
)
# configure the checker for password checking
self.checker.secret_type = constants.SecretType.PASSWORD
# remove any placeholder texts if either password or confirmation field changes content from initial state
self.checker.password.changed_from_initial_state.connect(self.remove_placeholder_texts)
self.checker.password_confirmation.changed_from_initial_state.connect(self.remove_placeholder_texts)
# connect UI updates to check results
self.checker.checks_done.connect(self._checks_done)
# check that the password is not empty
self._empty_check = input_checking.PasswordEmptyCheck()
# check that the content of the password field & the conformation field are the same
self._confirm_check = input_checking.PasswordConfirmationCheck()
# check password validity, quality and strength
self._validity_check = input_checking.PasswordValidityCheck()
# connect UI updates to validity check results
self._validity_check.result.password_score_changed.connect(self.set_password_score)
self._validity_check.result.status_text_changed.connect(self.set_password_status)
# check if the password contains non-ascii characters
self._ascii_check = input_checking.PasswordASCIICheck()
# register the individual checks with the checker in proper order
# 1) is the password non-empty ?
# 2) are both entered passwords the same ?
# 3) is the password valid according to the current password checking policy ?
# 4) is the password free of non-ASCII characters ?
self.checker.add_check(self._empty_check)
self.checker.add_check(self._confirm_check)
self.checker.add_check(self._validity_check)
self.checker.add_check(self._ascii_check)
# Set placeholders if the password has been set outside of the Anaconda
# GUI we either don't really know anything about it if it's crypted
# and still would not really want to expose it if its set in plaintext,
# and thus can'treally show it in the UI in any meaningful way.
if self._users_module.IsRootPasswordSet:
password_set_message = _("Root password has been set.")
self.password_entry.set_placeholder_text(password_set_message)
self.password_confirmation_entry.set_placeholder_text(password_set_message)
# Configure levels for the password bar
self._password_bar.add_offset_value("low", 2)
self._password_bar.add_offset_value("medium", 3)
self._password_bar.add_offset_value("high", 4)
# set visibility of the password entries
# - without this the password visibility toggle icon will
# not be shown
set_password_visibility(self.password_entry, False)
set_password_visibility(self.password_confirmation_entry, False)
# Send ready signal to main event loop
hubQ.send_ready(self.__class__.__name__)
# report that we are done
self.initialize_done()
def initialize(self):
NormalSpoke.initialize(self)
self.initialize_start()
# Create a new UserData object to store this spoke's state
# as well as the state of the advanced user dialog.
if self.data.user.userList:
self._user = copy.copy(self.data.user.userList[0])
else:
self._user = self.data.UserData()
# gather references to relevant GUI objects
# entry fields
self._fullname_entry = self.builder.get_object("fullname_entry")
self._username_entry = self.builder.get_object("username_entry")
self._password_entry = self.builder.get_object("password_entry")
self._password_confirmation_entry = self.builder.get_object(
"password_confirmation_entry")
# check boxes
self._admin_checkbox = self.builder.get_object("admin_checkbox")
self._password_required_checkbox = self.builder.get_object(
"password_required_checkbox")
# advanced user configration dialog button
self._advanced_button = self.builder.get_object("advanced_button")
# password checking status bar & label
self._password_bar = self.builder.get_object("password_bar")
self._password_label = self.builder.get_object("password_label")
# Install the password checks:
# - Has a password been specified?
# - If a password has been specified and there is data in the confirm box, do they match?
# - How strong is the password?
# - Does the password contain non-ASCII characters?
# Setup the password checker for password checking
self._checker = input_checking.PasswordChecker(
initial_password_content=self.password,
initial_password_confirmation_content=self.password_confirmation,
policy=input_checking.get_policy(self.data, "user"))
# configure the checker for password checking
self.checker.username = self.username
self.checker.secret_type = constants.SecretType.PASSWORD
# remove any placeholder texts if either password or confirmation field changes content from initial state
self.checker.password.changed_from_initial_state.connect(
self.remove_placeholder_texts)
self.checker.password_confirmation.changed_from_initial_state.connect(
self.remove_placeholder_texts)
# connect UI updates to check results
self.checker.checks_done.connect(self._checks_done)
# username and full name checks
self._username_check = input_checking.UsernameCheck()
self._fullname_check = input_checking.FullnameCheck()
# empty username is considered a success so that the user can leave
# the spoke without filling it in
self._username_check.success_if_username_empty = True
# check that the password is not empty
self._empty_check = input_checking.PasswordEmptyCheck()
# check that the content of the password field & the conformation field are the same
self._confirm_check = input_checking.PasswordConfirmationCheck()
# check password validity, quality and strength
self._validity_check = input_checking.PasswordValidityCheck()
# connect UI updates to validity check results
self._validity_check.result.password_score_changed.connect(
self.set_password_score)
self._validity_check.result.status_text_changed.connect(
self.set_password_status)
# check if the password contains non-ascii characters
self._ascii_check = input_checking.PasswordASCIICheck()
# register the individual checks with the checker in proper order
# 0) is the username and fullname valid ?
# 1) is the password non-empty ?
# 2) are both entered passwords the same ?
# 3) is the password valid according to the current password checking policy ?
# 4) is the password free of non-ASCII characters ?
self.checker.add_check(self._username_check)
self.checker.add_check(self._fullname_check)
self.checker.add_check(self._empty_check)
self.checker.add_check(self._confirm_check)
self.checker.add_check(self._validity_check)
self.checker.add_check(self._ascii_check)
self.guesser = {self.username_entry: True}
# Configure levels for the password bar
self.password_bar.add_offset_value("low", 2)
self.password_bar.add_offset_value("medium", 3)
self.password_bar.add_offset_value("high", 4)
# indicate when the password was set by kickstart
self.password_kickstarted = self.data.user.seen
# Modify the GUI based on the kickstart and policy information
# This needs to happen after the input checks have been created, since
# the Gtk signal handlers use the input check variables.
password_set_message = _("The password was set by kickstart.")
if self.password_kickstarted:
self.password_required = True
self.password_entry.set_placeholder_text(password_set_message)
self.password_confirmation_entry.set_placeholder_text(
password_set_message)
elif not self.checker.policy.emptyok:
# Policy is that a non-empty password is required
self.password_required = True
if not self.checker.policy.emptyok:
# User isn't allowed to change whether password is required or not
self.password_required_checkbox.set_sensitive(False)
self._advanced_user_dialog = AdvancedUserDialog(self._user, self.data)
self._advanced_user_dialog.initialize()
# set the visibility of the password entries
set_password_visibility(self.password_entry, False)
set_password_visibility(self.password_confirmation_entry, False)
# report that we are done
self.initialize_done()
def password_quality_test(self):
"""Check if libpwquality gives reasonable numbers & score is assigned correctly."""
# " " should give score 0 (<6 chars) & quality 0
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertEqual(check.result.password_score, 0)
self.assertEqual(check.result.status_text, _(constants.SecretStatus.TOO_SHORT.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
# "anaconda" is a dictionary word
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertGreater(check.result.password_score, 0)
self.assertNotEqual(check.result.status_text, _(constants.SecretStatus.EMPTY.value))
self.assertNotEqual(check.result.status_text, _(constants.SecretStatus.TOO_SHORT.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
# "jelenovipivonelej" is a palindrome
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertGreater(check.result.password_score, 0)
self.assertNotEqual(check.result.status_text, _(constants.SecretStatus.EMPTY.value))
self.assertNotEqual(check.result.status_text, _(constants.SecretStatus.TOO_SHORT.value))
self.assertEqual(check.result.password_quality, 0)
self.assertIsNotNone(check.result.error_message)
# "4naconda-" gives a quality of 27 on RHEL7
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertIs(check.result.error_message, "")
# "4naconda----" gives a quality of 52 on RHEL7
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertIs(check.result.error_message, "")
# "----4naconda----" gives a quality of 80 on RHEL7
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
self.assertIs(check.result.error_message, "")
# "?----4naconda----?" gives a quality of 100 on RHEL7
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
# this should (hopefully) give quality 100 everywhere
self.assertEqual(check.result.password_score, 4) # quality > 90
self.assertEqual(check.result.status_text, _(constants.SecretStatus.STRONG.value))
self.assertEqual(check.result.password_quality, 100)
self.assertIs(check.result.error_message, "")
# a long enough strong password with minlen set
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.minlen = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
# this should (hopefully) give quality 100 everywhere
self.assertEqual(check.result.password_score, 4) # quality > 90
self.assertEqual(check.result.status_text, _(constants.SecretStatus.STRONG.value))
self.assertEqual(check.result.password_quality, 100)
self.assertIs(check.result.error_message, "")
# minimum password length overrides strong passwords for score and status
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.minlen = 30
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
# this should (hopefully) give quality 100 everywhere
self.assertEqual(check.result.password_score, 0) # too short
self.assertEqual(check.result.status_text, _(constants.SecretStatus.TOO_SHORT.value))
self.assertEqual(check.result.password_quality, 0) # dependent on password length
self.assertIs(check.result.error_message,
_(constants.SECRET_TOO_SHORT[constants.SecretType.PASSWORD]))
def initialize(self):
NormalSpoke.initialize(self)
self.initialize_start()
# get object references from the builders
self._password_entry = self.builder.get_object("password_entry")
self._password_confirmation_entry = self.builder.get_object("password_confirmation_entry")
self._password_bar = self.builder.get_object("password_bar")
self._password_label = self.builder.get_object("password_label")
# set state based on kickstart
# NOTE: this will stop working once the module supports multiple kickstart commands
self.password_kickstarted = self._users_module.proxy.IsRootpwKickstarted
# Install the password checks:
# - Has a password been specified?
# - If a password has been specified and there is data in the confirm box, do they match?
# - How strong is the password?
# - Does the password contain non-ASCII characters?
# Setup the password checker for password checking
self._checker = input_checking.PasswordChecker(
initial_password_content = self.password,
initial_password_confirmation_content = self.password_confirmation,
policy = input_checking.get_policy(self.data, "root")
)
# configure the checker for password checking
self.checker.secret_type = constants.SecretType.PASSWORD
# remove any placeholder texts if either password or confirmation field changes content from initial state
self.checker.password.changed_from_initial_state.connect(self.remove_placeholder_texts)
self.checker.password_confirmation.changed_from_initial_state.connect(self.remove_placeholder_texts)
# connect UI updates to check results
self.checker.checks_done.connect(self._checks_done)
# check that the password is not empty
self._empty_check = input_checking.PasswordEmptyCheck()
# check that the content of the password field & the conformation field are the same
self._confirm_check = input_checking.PasswordConfirmationCheck()
# check password validity, quality and strength
self._validity_check = input_checking.PasswordValidityCheck()
# connect UI updates to validity check results
self._validity_check.result.password_score_changed.connect(self.set_password_score)
self._validity_check.result.status_text_changed.connect(self.set_password_status)
# check if the password contains non-ascii characters
self._ascii_check = input_checking.PasswordASCIICheck()
# register the individual checks with the checker in proper order
# 1) is the password non-empty ?
# 2) are both entered passwords the same ?
# 3) is the password valid according to the current password checking policy ?
# 4) is the password free of non-ASCII characters ?
self.checker.add_check(self._empty_check)
self.checker.add_check(self._confirm_check)
self.checker.add_check(self._validity_check)
self.checker.add_check(self._ascii_check)
# set placeholders if the password has been kickstarted as we likely don't know
# nothing about it and can't really show it in the UI in any meaningful way
password_set_message = _("The password was set by kickstart.")
if self.password_kickstarted:
self.password_entry.set_placeholder_text(password_set_message)
self.password_confirmation_entry.set_placeholder_text(password_set_message)
# Configure levels for the password bar
self._password_bar.add_offset_value("low", 2)
self._password_bar.add_offset_value("medium", 3)
self._password_bar.add_offset_value("high", 4)
# Send ready signal to main event loop
hubQ.send_ready(self.__class__.__name__, False)
# report that we are done
self.initialize_done()
def test_password_quality(self):
"""Check if libpwquality gives reasonable numbers & score is assigned correctly."""
# " " should give score 0 (<6 chars) & quality 0
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score == 0
assert check.result.status_text == _(
constants.SecretStatus.TOO_SHORT.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
# "anaconda" is a dictionary word
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score > 0
assert check.result.status_text != _(
constants.SecretStatus.EMPTY.value)
assert check.result.status_text != _(
constants.SecretStatus.TOO_SHORT.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
# "jelenovipivonelej" is a palindrome
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.password_score > 0
assert check.result.status_text != _(
constants.SecretStatus.EMPTY.value)
assert check.result.status_text != _(
constants.SecretStatus.TOO_SHORT.value)
assert check.result.password_quality == 0
assert check.result.error_message is not None
# "4naconda-" gives a quality of 27 on RHEL7
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.error_message == ""
# "4naconda----" gives a quality of 52 on RHEL7
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.error_message == ""
# "----4naconda----" gives a quality of 80 on RHEL7
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
assert check.result.error_message == ""
# "?----4naconda----?" gives a quality of 100 on RHEL7
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
# this should (hopefully) give quality 100 everywhere
assert check.result.password_score == 4 # quality > 90
assert check.result.status_text == _(
constants.SecretStatus.STRONG.value)
assert check.result.password_quality == 100
assert check.result.error_message == ""
# a long enough strong password with minlen set
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.min_length = 10
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
# this should (hopefully) give quality 100 everywhere
assert check.result.password_score == 4 # quality > 90
assert check.result.status_text == _(
constants.SecretStatus.STRONG.value)
assert check.result.password_quality == 100
assert check.result.error_message == ""
# minimum password length overrides strong passwords for score and status
request = input_checking.PasswordCheckRequest()
request.policy = get_policy()
request.policy.min_length = 30
request.password = "******"
check = input_checking.PasswordValidityCheck()
check.run(request)
# this should (hopefully) give quality 100 everywhere
assert check.result.password_score == 0 # too short
assert check.result.status_text == _(
constants.SecretStatus.TOO_SHORT.value)
assert check.result.password_quality == 0 # dependent on password length
assert check.result.error_message == \
_(constants.SECRET_TOO_SHORT[constants.SecretType.PASSWORD])
def _validate_password(self, password, confirm):
"""Validate and process user password."""
if (password and not confirm) or (confirm and not password):
self._report(
_("You must enter your root password and confirm it by typing"
" it a second time to continue."))
return None
if password != confirm:
self._report(
_(constants.PASSWORD_CONFIRM_ERROR_TUI) %
{"password_name_plural": _(constants.NAME_OF_PASSWORD_PLURAL)})
return None
# If an empty password was provided, unset the value
if not password:
return ""
# prepare a password validation request
password_check_request = input_checking.PasswordCheckRequest()
password_check_request.password = password
password_check_request.password_confirmation = ""
password_check_request.policy = self._policy
# validate the password
password_check = input_checking.PasswordValidityCheck()
password_check.run(password_check_request)
# if the score is equal to 0 and we have an error message set
if not password_check.result.password_score and password_check.result.error_message:
self._report(password_check.result.error_message)
return None
if password_check.result.password_quality < self._policy.minquality:
if self._policy.strict:
done_msg = ""
else:
done_msg = _("\nWould you like to use it anyway?")
if password_check.result.error_message:
error_prefix = _(constants.PASSWORD_WEAK_WITH_ERROR) % {
"password_name": _(constants.NAME_OF_PASSWORD),
"error_message": password_check.result.error_message
}
error = "{} {}".format(error_prefix, done_msg)
else:
weak_prefix = _(constants.PASSWORD_WEAK) % {
"password_name": _(constants.NAME_OF_PASSWORD)
}
error = "{} {}".format(weak_prefix, done_msg)
if not self._policy.strict:
question_window = YesNoDialog(error)
ScreenHandler.push_screen_modal(question_window)
if not question_window.answer:
return None
else:
self._report(error)
return None
if any(char not in constants.PW_ASCII_CHARS for char in password):
self._report(
_("You have provided a password containing non-ASCII characters.\n"
"You may not be able to switch between keyboard layouts to login.\n"
))
return cryptPassword(password)
def initialize(self):
NormalSpoke.initialize(self)
self.initialize_start()
# We consider user creation requested if there was at least one user
# in the DBus module user list at startup.
# We also remember how the user was called so that we can clear it
# in a reasonably safe way & if it was cleared.
self._user_list = get_user_list(self._users_module, add_default=True)
self._user_requested = False
self._requested_user_cleared = False
# if user has a name, it's an actual user that has been requested,
# rather than a default user added by us
if self.user.name:
self._user_requested = True
# gather references to relevant GUI objects
# entry fields
self._fullname_entry = self.builder.get_object("fullname_entry")
self._username_entry = self.builder.get_object("username_entry")
self._password_entry = self.builder.get_object("password_entry")
self._password_confirmation_entry = self.builder.get_object("password_confirmation_entry")
# check boxes
self._admin_checkbox = self.builder.get_object("admin_checkbox")
self._password_required_checkbox = self.builder.get_object("password_required_checkbox")
# advanced user configration dialog button
self._advanced_button = self.builder.get_object("advanced_button")
# password checking status bar & label
self._password_bar = self.builder.get_object("password_bar")
self._password_label = self.builder.get_object("password_label")
# Install the password checks:
# - Has a password been specified?
# - If a password has been specified and there is data in the confirm box, do they match?
# - How strong is the password?
# - Does the password contain non-ASCII characters?
# Setup the password checker for password checking
self._checker = input_checking.PasswordChecker(
initial_password_content=self.password,
initial_password_confirmation_content=self.password_confirmation,
policy_name=PASSWORD_POLICY_USER
)
# configure the checker for password checking
self.checker.username = self.username
self.checker.secret_type = constants.SecretType.PASSWORD
# remove any placeholder texts if either password or confirmation field changes content from initial state
self.checker.password.changed_from_initial_state.connect(self.remove_placeholder_texts)
self.checker.password_confirmation.changed_from_initial_state.connect(self.remove_placeholder_texts)
# connect UI updates to check results
self.checker.checks_done.connect(self._checks_done)
# username and full name checks
self._username_check = input_checking.UsernameCheck()
self._fullname_check = input_checking.FullnameCheck()
# empty username is considered a success so that the user can leave
# the spoke without filling it in
self._username_check.success_if_username_empty = True
# check that the password is not empty
self._empty_check = input_checking.PasswordEmptyCheck()
# check that the content of the password field & the conformation field are the same
self._confirm_check = input_checking.PasswordConfirmationCheck()
# check password validity, quality and strength
self._validity_check = input_checking.PasswordValidityCheck()
# connect UI updates to validity check results
self._validity_check.result.password_score_changed.connect(self.set_password_score)
self._validity_check.result.status_text_changed.connect(self.set_password_status)
# check if the password contains non-ascii characters
self._ascii_check = input_checking.PasswordASCIICheck()
# Skip the empty and validity password checks if no username is set
self._empty_check.skip = True
self._validity_check.skip = True
# register the individual checks with the checker in proper order
# 0) is the username and fullname valid ?
# 1) is the password non-empty ?
# 2) are both entered passwords the same ?
# 3) is the password valid according to the current password checking policy ?
# 4) is the password free of non-ASCII characters ?
self.checker.add_check(self._username_check)
self.checker.add_check(self._fullname_check)
self.checker.add_check(self._empty_check)
self.checker.add_check(self._confirm_check)
self.checker.add_check(self._validity_check)
self.checker.add_check(self._ascii_check)
self.guesser = {
self.username_entry: True
}
# Configure levels for the password bar
self.password_bar.add_offset_value("low", 2)
self.password_bar.add_offset_value("medium", 3)
self.password_bar.add_offset_value("high", 4)
# Modify the GUI based on the kickstart and policy information
# This needs to happen after the input checks have been created, since
# the Gtk signal handlers use the input check variables.
password_set_message = _("The password was set by kickstart.")
if self.password_kickstarted:
self.password_required = True
self.password_entry.set_placeholder_text(password_set_message)
self.password_confirmation_entry.set_placeholder_text(password_set_message)
elif not self.checker.policy.allow_empty:
# Policy is that a non-empty password is required
self.password_required = True
if not self.checker.policy.allow_empty:
# User isn't allowed to change whether password is required or not
self.password_required_checkbox.set_sensitive(False)
self._advanced_user_dialog = AdvancedUserDialog(self)
self._advanced_user_dialog.initialize()
# set the visibility of the password entries
# - without this the password visibility toggle icon will
# not be shown
set_password_visibility(self.password_entry, False)
set_password_visibility(self.password_confirmation_entry, False)
# report that we are done
self.initialize_done()